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The Correlation between Atlantic Hurricane Frequency and ENSO

The Correlation between Atlantic Hurricane Frequency and ENSO . Jessica Johnson EAS 4480 Spring 2012. Introduction: ENSO. Cycle that occurs in the Pacific Ocean approximately every five years Causes extreme weather to occur (increase drought, flooding) in many region of the world

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The Correlation between Atlantic Hurricane Frequency and ENSO

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  1. The Correlation between Atlantic Hurricane Frequency and ENSO Jessica Johnson EAS 4480 Spring 2012

  2. Introduction: ENSO • Cycle that occurs in the Pacific Ocean approximately every five years • Causes extreme weather to occur (increase drought, flooding) in many region of the world • ENSO cycles change the SST and pressure in the Pacific Ocean • El Nino: warmer SST and high pressure • La Nina: colder SST and low pressure

  3. Introduction: ENSO

  4. Introduction: Hurricanes • Tropical storm characterized by low pressure center, with a defined eye, and thunderstorms and high winds in the outer rain bands • Hurricane season: June 1- November 30 • There are four conditions necessary to the formation of a hurricane: • Low pressure • Moist air • Warm SST • Wind

  5. Introduction: Hurricanes

  6. Analysis Techniques and Data Used HURDAT and the MEI (multivariate ENSO index); 60 year time span from 1950-2010 Correlation Coefficient Periodogram Cross Spectrum Analysis Autocorrelation Least Squares Regression Principal Component Regression Major Reduced Axis Regression Coherence

  7. Correlation Coefficient R value: -0.3361 P value: 0.0087 Correlation is significant because P < 0.05 There is a medium correlation between ENSO data and Hurdat data because 0.3<abs(r)<0.5

  8. Periodogram ENSO data showed a frequency of 5 years, which was to be expected, with smaller peaks approximately every other year HURDAT showed a strong frequency of 5 years

  9. Cross Spectrum Analysis • Strong peak around 5 years, then decrease around 10 years, and then stabilizes around 15 years • 1 time span is equivalent to 10 years

  10. Autocorrelation Negative correlation until approximately -20 lags, then function becomes mostly positive.

  11. Least Squares Regression Most points between 2 standard deviations with a few outliers, signifying a correlation within 2 standard deviations slope is negative meaning there is a negative correlation

  12. Principal Component Regression, LS Regression, and Major Axis Regression Most points follow LS regression (green) and major axis regression (blue), showing correlation No correlation for principal component regression (black)

  13. Coherence Strong coherence peak at 20 years

  14. Conclusions • Correlation between ENSO and Atlantic hurricane frequency is mediocre (r = -0.3361) and negative, meaning La Nina cycles produce a greater number of hurricanes while El Nino cycles produce less hurricanes • All data correlates within 2 standard deviations with a negative LS regression slop, confirming correlation coefficients and autocorrelation results • Frequency of 5 years for both ENSO and hurricane frequency, meaning both occur regularly approximately every 5 years. • ENSO had small frequency peaks roughly every other year indicating ENSO cycle

  15. Sources http://www.aoml.noaa.gov/hrd/hurdat/Data_Storm.html http://www.esrl.noaa.gov/psd/data/correlation/mei.data Trauth, Martin H., “Matlab Recipes for Earth Sciences”, Springer, 2010.

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